Search
Menu
Hamamatsu Corp. - Mid-Infrared LED 11/24 LB

Students Use 3-D Software in Classroom, Competition

Facebook X LinkedIn Email
CONCORD, Mass., August 13 -- Students at Germany's Albert-Ludwig University of Freiburg's Institute for Microsystems are using SolidWorks 3-D mechanical design software to learn solid modeling fundamentals and how they apply to microelectromechanical systems (MEMS) designs.

IMTEK is teaching students how to design, test and build microsystem technology, which it says is being used increasingly in breakthrough microelectronic and biomedical products. Some of these products are machines that deploy auto airbags, regulate ink in printers, direct fiber optic network data, analyze DNA and administer drugs.

Students receive 3-D mechanical design training before they design, test and construt a microsystem project. They use SolidWorks' e-mail-enabled design collaboration tool to share designs and exchange ideas about their project; the software also allows them to generate photorealistic or animated images of their product designs.

SolidWorks, based in Concord, Mass., also announced this week it has donated more than $70,000 worth of its 3-D mechanical design software to more than 350 contestants in the SkillsUSA Championships.

SkillsUSA is a national organization serving high school and college students who are pursuing careers in trade, technical and skilled service occupations. The SkillsUSA Championships took place in June in Kansas City.

McCann Technical High School in North Adams, Mass., dominated the championships' automated manufacturing technology category, winning the gold medal for the second straight year.

SolidWorks sponsored winners in five SkillsUSA categories: technical drafting, computer numeric control (CNC) milling, CNC turning, automated manufacturing technology and robotics and automation technology.

For more information, visit: www.solidworks.com


Ohara Corp. - Optical Glass, Polish substrates 10-23

Published: August 2003
Glossary
microelectromechanical systems
Refers to micron-size complex machines that have physical dimensions suitable for the fabrication of optical switches for use in state-of-the-art communications networks.
Albert-Ludwig University of Freiburg Institute for MicrosystemsindustrialMEMSmicroelectromechanical systemsNews & FeaturesSolidworks

We use cookies to improve user experience and analyze our website traffic as stated in our Privacy Policy. By using this website, you agree to the use of cookies unless you have disabled them.